A model and a control scheme for a flexible four-bar linkage is described. The discrete finite element model of the mechanism accounts for geometric and inertial nonlinearities. A reduced number of measured variables are selected to control both rigid-body motion and vibration separately. Rigid-body motion control is performed by means of a PID-like regulator while proportional controllers are employed to damp link oscillations. Appropriate devices are proposed to avoid coupling effects among variables. Numerical results demonstrate the effectiveness of the control scheme
This study is concerned with the motion and vibration control strategy for the flexible-link mechani...
This paper addresses the active vibration control and coupled vibration analysis of a planar paralle...
[[abstract]]This investigation focuses on the response of flexible four bar linkages comprising two ...
A control scheme for a four-bar linkage with all the links flexible is proposed and tested both nume...
This paper proposes an approach to the problem of simultaneous motion and vibration control of flexi...
In this paper reduction of vibration of a flexible planar mechanism is achieved through synthesis of...
This paper presents the experimental validation of a model-based robust approach to the synthesis of...
The aim of any control scheme for a flexible link mechanism is that of ensuring that the controlled ...
The control of lightweight and high speed manipulators requires special strategies to prevent and da...
Although the dynamics of flexible link mechanisms and manipulators is nonlinear, motion and vibratio...
This paper proposes a control strategy for flexible mechanisms. Our starting-point is a classical co...
This paper extends the use of Delayed Reference Controllers to the simultaneous motion and vibration...
In this article, an adaptive control design technique for multibody mechanisms is proposed and descr...
[[abstract]]This paper presents a theoretical and experimental study on the vibration suppression of...
Control for flexible-link robots is a non-trivial problem that has elevated difficulty comparing to ...
This study is concerned with the motion and vibration control strategy for the flexible-link mechani...
This paper addresses the active vibration control and coupled vibration analysis of a planar paralle...
[[abstract]]This investigation focuses on the response of flexible four bar linkages comprising two ...
A control scheme for a four-bar linkage with all the links flexible is proposed and tested both nume...
This paper proposes an approach to the problem of simultaneous motion and vibration control of flexi...
In this paper reduction of vibration of a flexible planar mechanism is achieved through synthesis of...
This paper presents the experimental validation of a model-based robust approach to the synthesis of...
The aim of any control scheme for a flexible link mechanism is that of ensuring that the controlled ...
The control of lightweight and high speed manipulators requires special strategies to prevent and da...
Although the dynamics of flexible link mechanisms and manipulators is nonlinear, motion and vibratio...
This paper proposes a control strategy for flexible mechanisms. Our starting-point is a classical co...
This paper extends the use of Delayed Reference Controllers to the simultaneous motion and vibration...
In this article, an adaptive control design technique for multibody mechanisms is proposed and descr...
[[abstract]]This paper presents a theoretical and experimental study on the vibration suppression of...
Control for flexible-link robots is a non-trivial problem that has elevated difficulty comparing to ...
This study is concerned with the motion and vibration control strategy for the flexible-link mechani...
This paper addresses the active vibration control and coupled vibration analysis of a planar paralle...
[[abstract]]This investigation focuses on the response of flexible four bar linkages comprising two ...